Entropy and black holes

A blank sheet of paper falling into a black hole would increase the area of the event horizon and the increase in area would be associated with an increase in the entropy of the black hole.If I cut away bits of a heavier sheet to write some sentences,and the cut sheet had the same mass as before, the increase in area of the event horizon would be the same as before,and would not reflect the fact that the sheet carried information.
I would have to conclude that, in fact, the area of the horizon does
not say anything about the information that went into a black hole and
that as far as black holes are concerned, entropy and information are
not linked.

basically the imformation that can be found is the atomic bonds before it was belived that once somthing went into a black hole it became the black hole and all bonds were broken in fact there are still bonds between the atoms in a black hole and thats the type of imformation they are talking about

No. The "information" talked about with entropy isn't writing on a piece of paper, its much more fundamental: atomic/molecular structure type info.

Kurious:

How does the area of the event horizon relate to this atomic/ molecular structure info?
I think Beckstein said that one unit of area = one bit of information.
I could cut the heavier sheet of paper so that it had the same number of bits as
the lighter sheet.But how would the absorption of the sheets be distinguished by the area of the event horizon of a black hole?

How does the area of the event horizon relate to this atomic/ molecular structure info?

It doesn't; apparently, it is generally accepted that no info can be obtained outside the event horizon except 3 quantities: mass, angular momentum and charge.

I think Beckstein said that one unit of area = one bit of information.

Kurious; you ask the darndest questions! :rofl:
What Bekenstein said was that the entropy S of a black hole is a universal multiple of its surface area, A.
The formula:
S ={kc*3/4Gh}(A)
...(where the first bracket {} contains the usual constants.)

As a BH radiates into space it will gradually evaporate; Since its surface area A decreases so also will its entropy decrease.